Abstract
Depression, cognitive deficits, and sleep disturbances are common and often severe in menopausal women. Hormone replacement cannot effectively alleviate these symptoms and sometimes elicits life-threatening adverse reactions. Exploring effective therapies to target psychological problems is urgently needed. In this work, we developed a mouse model of menopause by bilateral ovariectomies (OVXs) and investigated whether menopausal mental symptoms can be ameliorated by psychostimulant modafinil (MOD) as well as explored the underlying mechanisms. At ~3 weeks after OVXs, mice got daily intraperitoneal administrations of MOD at the beginning of the active phase. Several behavioral tests and electroencephalogram (EEG) recordings were conducted. Electrophysiological and immunohistochemical experiments were carried out to evaluate the synaptic plasticity and neurogenesis, respectively. We found that chronic MOD administration in OVX mice significantly decreased immobility time. The spatial memory performance of OVX mice improved significantly in response to MOD administration in the Morris water-maze test. The OVX mice were characterized by an attenuation of hippocampal synaptic transmission and synaptic long-term potentiation and had fewer 5-ethynyl-2′-deoxyuridine-labeled cells in the dentate gyrus, which were restored after MOD administration. Antagonists of dopamine D1 and D2 receptors and GABAA receptor agonists were involved in MOD-exerted anti-depressant actions and augments of hippocampal neurogenesis in OVX mice. Moreover, night-dosed MOD therapy significantly promoted the night-time delta-band EEG power during wakefulness and the day-time rapid eye movement sleep amount, which were significantly reduced by OVXs. Collectively, these findings suggest that MOD is a promising therapeutic candidate for menopausal women.
Highlights
With the increase in life expectancy, women spend more than one-third of their lives in menopause[1]
There were no differences among the different groups in terms of the distance traveled or time spent in the center of the Open field test (OFT), or the percentage of distance in the open arms or entries into the open arms in the EPT (Fig. S1)
We found that coadministration of DZP with MOD significantly prolonged the immobility time in the Forced swimming test (FST) [T(13) = 2.378, p = 0.0334] (Fig. 5f) and remarkably decreased the hippocampal newborn cells of OVX mice [T(7) = 12.38, p < 0.0001] (Fig. 5e, g)
Summary
With the increase in life expectancy, women spend more than one-third of their lives in menopause[1]. Bilateral ovariectomies (OVXs) performed for the treatment of ovarian pathologies or as a prophylactic procedure for reducing the risk of breast and ovarian cancer are a leading cause of ovarian hormonal deficiencies in pre-menopausal women. The risk of a major depressive disorder is 2–4 times greater than at the premenopausal stage[4]. Depression greatly and negatively affects daily functioning, quality of life, and imposes a severe burden on inflicted individuals and their families[5]. A wide range of cognitive problems, including forgetfulness and decreases in attention, executive function, and spatial working memory, are common in women transitioning through menopause[6]. Sleep disturbances that represent another common and recurring condition have been self-reported in 40–60% of perimenopausal women[7]
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